On 2014/9/30 18:56, Abel wrote: > Hi Thomas, > On 2014/9/29 23:53, Thomas Gleixner wrote: > >> On Mon, 29 Sep 2014, Abel wrote: >>> I've been through your patches and noticed that the only domain >>> which does not call irq_domain_alloc_irqs_parent() is >>> x86_vector_domain. And this makes sense *if* we already knew which >>> domain is the nearest one to the CPU. >> >> Right, and in case of x86 the vector domain _IS_ the one which is >> always the nearest one to the cpu. > > Yes, I know that. :) > What I meant is... (please see below) > >> >>> But I don't think a well implemented device driver should assume >>> itself be in a particular position of the interrupt delivery path. >> >> The device driver has no knowledge of this. The irq domain driver >> definitely has to know to some extent. >> >>> Actually it should be guaranteed by the core infrastructure that all >>> the domains in the interrupt delivery path should allocate a >>> hardware interrupt for the interrupt source. >> >> Well, that's what we do. We allocate down the irq domain hierarchy. If >> one level fails the whole operation fails. > > Actually the core infrastructure just calls domain->ops->alloc() which is > the one who really guarantees it by calling irq_domain_alloc_irqs_parent(). > I think it's enough for a particular domain to pick a hwirq from itself for > that linux irq, and need not to care about its parent. > What I suggest is something like: > > for (iter = domain; iter; iter = iter->parent) { > ret = iter->ops->alloc(iter, virq, nr_irqs, arg); > if (ret < 0) { > mutex_unlock(&irq_domain_mutex); > goto out_free_irq_data; > } > } > > in this way, the core infrastructure guarantees allocating down the irqdomain > hierarchy, and the implementers of domain_ops->alloc() need not to call > irq_domain_alloc_irqs_parent() any longer, just do the things they have to. Hi Abel, We have considered the above design when implementing hierarchy irqdomain, but adopted the irq_domain_alloc_irqs_parent(). The core could only support pre-order or post-order processing, it could support pre-order, post-order, pre-/post-order processing by using irq_domain_alloc_irqs_parent(). So we choose it for flexibility. Regards! Gerry > >> >>> And besides the comments/questions I mentioned above, I am also curious about >>> how the chained interrupts been processed. >>> >>> Let's take a 3-level-chained-domains for example. >>> Given 3 interrupt controllers A, B and C, and the interrupt delivery path is: >>> >>> DEV -> A -> B -> C -> CPU >>> >>> After the hierarchy irqdomains are established, the unique linux interrupt of >>> DEV will be mapped with a hardware interrupt in each domain: >>> >>> DomainA: HWIRQ_A => VIRQ_DEV >>> DomainB: HWIRQ_B => VIRQ_DEV >>> DomainC: HWIRQ_C => VIRQ_DEV >>> >>> When the DEV triggered an interrupt signal, the CPU will acknowledge HWIRQ_C, >> >> Not necessarily. The CPU will process HWIRQ_C. The acknowledge >> mechanism depends on the implementation details of the hierarchy. > > Yes, you are right. Thanks for pointing out. > >> >>> and then irq_find_mapping(DomainC, HWIRQ_C) will be called to get the linux >>> interrupt VIRQ_DEV, and after the handler of the VIRQ_DEV has been processed, >>> the interrupt will end with the level (if have) uncleared on B, which will >>> result in the interrupt of DEV cannot be processed again. >>> >>> Or is there anything I misunderstand? >> >> This heavily depends on the properties of the stacked domains. >> >> It depends on the hardware requirements and the implementation of >> domain A and B how this is handled. >> >> It might be sufficient to have the following code in the irq_ack() >> callback of domain A: >> >> irq_ack_A(struct irq_data *d) >> { >> ack_hw_A(); >> } >> >> Another HW or stacking scenario requires >> >> irq_ack_A(struct irq_data *d) >> { >> ack_hw_A(); >> ack_parent(); >> } >> >> where ack_parent() does: >> >> if (d->parent_data) >> d->parent_data->chip->ack(d->parent_data); >> >> and ack_hw_A() can be anything from a nop to some more or less complex >> hw access. >> >> So we cannot define upfront how deep an ack/mask/unmask/... has to be >> propagated down the chain. This needs a careful consideration in terms >> of functionality and we want to be able to do performance shortcuts as >> well. >> > > Yes, I got it. And one more thing I concerned is that when hierarchy > irqdomains is enabled, shouldn't the ack_parent() be called by default > by the irqchip->irq_ack() of each domain to ensure all the domains in > the delivery path ack this interrupt? > > Thanks, > Abel. > > -- > To unsubscribe from this list: send the line "unsubscribe linux-kernel" in > the body of a message to majordomo@xxxxxxxxxxxxxxx > More majordomo info at http://vger.kernel.org/majordomo-info.html > Please read the FAQ at http://www.tux.org/lkml/ > -- To unsubscribe from this list: send the line "unsubscribe linux-acpi" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html